CN210386793U

CN210386793U - Automatic bearing cleaning device

Info

Publication number: CN210386793U
Application number: CN201920946324.2U
Authority: CN
Inventors: 任军
Original assignee: Wafangdian Mining Machinery Bearing Manufacturing Co Ltd
Current assignee: Wafangdian Mining Machinery Bearing Manufacturing Co Ltd
Priority date: 2019-06-23
Filing date: 2019-06-23
Publication date: 2020-04-24
Anticipated expiration: 2029-06-23

Abstract

The utility model discloses an automatic bearing belt cleaning device relates to bearing and washs technical field. The utility model discloses a first backup pad, first conveyor, second fixed plate, first water tank and second water tank, a first backup pad fixed surface has first fixed plate, and a first fixed plate fixed surface has first cylinder. The utility model discloses a first conveyor, the cooperation of a set of first filter and second filter, make the bearing at abluent in-process can automatic material loading, utilize the third cylinder to drive the second filter and rotate the bearing after will wasing and lift off, the second conveyor that deuterogamies carries away the bearing, thereby realized the abluent automatic unloading of bearing on, great saving the manpower, through setting up in the second water tank first water pump and the second water pump endless carry out the secondary washing to the bearing after wasing, make the bearing abluent cleaner under the effect of circulation rivers.

Description

Automatic bearing cleaning device

Technical Field

The utility model belongs to the technical field of the bearing washs, especially relate to an automatic bearing belt cleaning device.

Background

The bearing is a component for fixing and reducing the load friction coefficient in the mechanical transmission process. It can also be said that the member for reducing the friction coefficient during power transmission and keeping the center position of the shaft fixed when the other members are moved relative to each other on the shaft. The bearing is a lightweight part in modern mechanical equipment. Its main function is to support the mechanical rotating body to reduce the friction coefficient of mechanical load of equipment in the transmission process.

The existing bearing cleaning device needs manual loading and unloading, so that the cleaning efficiency of the bearing is low, the consumption of manpower and material resources is high, and the actual production is not facilitated; meanwhile, the conventional bearing cleaning device does not carry out secondary cleaning treatment on the cleaned bearing, so that more cleaning agents are remained on the surface of the bearing, and the subsequent use of the bearing is not facilitated; finally, the cleaning efficiency of the existing bearing cleaning device is low, and the cleanliness of the bearing is not high, so that part of impurities still remain on the surface of the bearing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic bearing cleaning device, through first conveyor, the cooperation of a set of first filter and second filter, make the bearing at abluent in-process can automatic material loading, utilize the third cylinder to drive the second filter and rotate the bearing after will wasing and lift off, the second conveyor that deuterogamies transports the bearing away, it needs the manual work to carry out the material loading and unload to have solved current bearing cleaning device, this makes the cleaning efficiency of bearing lower, and great to the consumption of manpower and materials, be unfavorable for the problem of actual production.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to an automatic bearing cleaning device, including first backup pad, first conveyor, second fixed plate, first water tank and second water tank, first backup pad first fixed plate of surface mounting has first fixed plate, first fixed plate surface mounting has first cylinder, first cylinder push rod one end is fixed with the second backup pad, second backup pad first surface mounting has a set of second cylinder, second cylinder push rod one end mounting has first solid fixed ring, second fixed plate one surface mounting has a set of first baffle and a set of second baffle from a left side to the right side in proper order, two between the first baffle through pivot and a first solid fixed ring inner wall normal running fit, two between the second baffle through the bearing and another first solid fixed ring inner wall normal running fit;

one opposite side surface of the second fixing plate is rotatably connected with first filter plates through bearings, a second filter plate is fixed between the two first filter plates, one surface of the second filter plate is fixed with a group of third baffle plates, a second fixing ring is rotatably connected between one first baffle plate and one second baffle plate through a rotating shaft, a third air cylinder is fixed on the peripheral side surface of the second fixing ring, a third fixing ring is fixed at one end of a push rod of the third air cylinder, and the two third baffle plates are rotatably matched with the inner wall of the third fixing ring through rotating shafts;

the ultrasonic generator is fixed on the first water tank relative inner wall, the first water pump and the second water pump are fixed on the second water tank relative inner wall respectively, a water inlet pipe and a water outlet pipe are fixed on the first water tank surface and the second water tank surface in a penetrating mode, and valves are arranged on the water inlet pipe and the water outlet pipe.

Furthermore, a set of first sliding grooves are formed in one surface of the first supporting plate, a set of first sliding blocks are fixed on one surface of the second supporting plate, the first sliding blocks slide along the inner wall of the first sliding grooves, and the cross section of each first sliding groove and the cross section of each first sliding block are of a T-shaped structure.

Further, the cross section of the second fixing plate is of a right-angled trapezoid structure, and the cross section of the second filter plate is of an arc structure.

Further, the first conveying device and the second conveying device have the same structural characteristics, and the first conveying device and the second conveying device are respectively located on two sides of the first filter plate.

Furthermore, the first conveying device comprises a third supporting plate and a motor, a group of third fixing plates is fixed on the surface of the third supporting plate, a fourth fixing plate is fixed on the surface of the third fixing plate, a fourth cylinder is fixed on the surface of the fourth fixing plate, and a fourth supporting plate is fixed at one end of a push rod of the fourth cylinder.

Furthermore, a second sliding groove is formed in one surface of the third fixing plate, a second sliding block is fixed on one surface of the fourth supporting plate, and the second sliding block slides along the inner wall of the second sliding groove.

Furthermore, a fifth fixing plate is fixed between the two fourth supporting plates, one end of the output shaft of the motor penetrates through one surface of one fourth supporting plate and is fixedly provided with a belt roller, the other end of the third supporting plate is rotatably connected with one surface of the other fourth supporting plate through a bearing, the two fourth supporting plates are rotatably connected with the other belt roller through a bearing, and the two belt rollers are matched with a conveying belt in a transmission manner.

The utility model discloses following beneficial effect has:

1. the utility model discloses a first conveyor, the cooperation of a set of first filter and second filter, make the bearing at abluent in-process can automatic material loading, utilize the third cylinder to drive the second filter and rotate the bearing after will wasing and lift off, it carries away the bearing to coordinate second conveyor again, thereby realized the abluent automatic unloading of bearing, great saving manpower, the cleaning efficiency of bearing is improved, it needs the manual work to carry out material loading and unload to have solved current bearing belt cleaning device, this makes the cleaning efficiency of bearing lower, and it is great to the consumption of manpower and materials, be unfavorable for the problem of actual production.

2. The utility model discloses a setting first water pump and the second water pump endless bearing after wasing in the second water tank carries out the secondary and washs for the bearing is abluent cleaner under the effect of circulating water flow, has solved current bearing belt cleaning device and has not carried out the secondary cleaning to the bearing after wasing, makes the remaining sanitizer of bearing surface more, is unfavorable for the problem of the follow-up use of bearing.

3. The utility model discloses an all be fixed with supersonic generator at a relative side of first water tank for when the bearing washd in first water tank, abluent more clean and abluent efficiency is higher, and it is lower to have solved current bearing belt cleaning device abluent efficiency, and is not high to the cleanliness of bearing, makes the surface of bearing still can persist the problem of partial impurity.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of an automatic bearing cleaning device according to the present invention;

fig. 2 is a schematic structural view of a first support plate, a first fixing plate, a first cylinder and a first sliding chute;

FIG. 3 is a schematic structural view of the second support plate, the first slide block, the second fixing plate, the first filter plate and the second filter plate;

FIG. 4 is a schematic structural view of a second cylinder, a first retainer ring, a second retainer ring and a third cylinder;

FIG. 5 is a schematic view of the structure of the second filter plate;

FIG. 6 is a schematic structural view of a fourth support plate, a second slide block, a belt roller and a conveyor belt;

fig. 7 is a schematic structural view of a third fixing plate, a fourth cylinder and a second chute;

FIG. 8 is a schematic structural view of the first water tank, the ultrasonic generator, the water inlet pipe and the water outlet pipe;

FIG. 9 is a schematic diagram of the second water tank, the first water pump, the second water pump and the valve;

in the drawings, the components represented by the respective reference numerals are listed below:

1-a first support plate, 2-a first conveying device, 3-a second conveying device, 4-a first fixing plate, 5-a first cylinder, 6-a first chute, 7-a second support plate, 8-a first slide block, 9-a second cylinder, 10-a first fixing ring, 11-a second fixing plate, 12-a first baffle, 13-a second baffle, 14-a first filter plate, 15-a second filter plate, 16-a third baffle, 17-a second fixing ring, 18-a third cylinder, 19-a third fixing ring, 20-a first water tank, 21-an ultrasonic generator, 22-a second water tank, 23-a first water pump, 24-a second water pump, 25-a water inlet pipe, 26-a water outlet pipe, 27-a valve, 201-a third support plate, 202-third fixed plate, 203-fourth fixed plate, 204-fourth cylinder, 205-second chute, 206-fourth support plate, 207-fifth fixed plate, 208-second slide block, 209-motor, 210-belt roller, 211-conveyor belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-9, the present invention relates to an automatic bearing cleaning device, which comprises a first supporting plate 1, a first conveying device 2, a second conveying device 3, the device comprises a second fixing plate 11, a first water tank 20 and a second water tank 22, wherein a first fixing plate 4 is fixed on one surface of a first supporting plate 1, a first air cylinder 5 is fixed on one surface of the first fixing plate 4, a second supporting plate 7 is fixed at one end of a push rod of the first air cylinder 5, a group of second air cylinders 9 is fixed on one surface of the second supporting plate 7, a first fixing ring 10 is fixed at one end of a push rod of the second air cylinder 9, a group of first baffle plates 12 and a group of second baffle plates 13 are sequentially fixed on one surface of the second fixing plate 11 from left to right, the two first baffle plates 12 are in rotating fit with the inner wall of one first fixing ring 10 through a rotating shaft, and the two second baffle plates 13 are in rotating fit with the inner wall of the other;

one opposite side surface of the second fixing plate 11 is rotatably connected with first filter plates 14 through bearings, a second filter plate 15 is fixed between the two first filter plates 14, one surface of the second filter plate 15 is fixed with a group of third baffle plates 16, a second fixing ring 17 is rotatably connected between one first baffle plate 12 and one second baffle plate 13 through a rotating shaft, a third air cylinder 18 is fixed on the peripheral side surface of the second fixing ring 17, one end of a push rod of the third air cylinder 18 is fixed with a third fixing ring 19, and the two third baffle plates 16 are rotatably matched with the inner wall of the third fixing ring 19 through rotating shafts;

an ultrasonic generator 21 is fixed on the inner wall of the first water tank 20, a first water pump 23 and a second water pump 24 are fixed on the inner wall of the second water tank 22, a water inlet pipe 25 and a water outlet pipe 26 penetrate through and are fixed on the surface of the first water tank 20 and the surface of the second water tank 22, and valves 27 are arranged on the water inlet pipe 25 and the water outlet pipe 26.

As shown in fig. 2 and 3, a set of first sliding grooves 6 is formed in a surface of the first support plate 1, a set of first sliding blocks 8 is fixed on a surface of the second support plate 7, the first sliding blocks 8 slide along an inner wall of the first sliding grooves 6, and both the cross section of the first sliding grooves 6 and the cross section of the first sliding blocks 8 are of a T-shaped structure, so that the second support plate 7 can slide along the first support plate 1 under the pushing of the first cylinder 5.

Wherein, as shown in fig. 4 and 5, the cross section of the second fixing plate 11 is a right trapezoid structure, and the cross section of the second filter plate 15 is an arc structure, so that the bearing on the second filter plate 15 can be easily poured out.

Wherein, as shown in figure 1, the first conveying device 2 and the second conveying device 3 have the same structural characteristics, the first conveying device 2 and the second conveying device 3 are respectively positioned at two sides of the first filter plate 14, the first conveying device 2 is used for conveying the bearing to be cleaned to the second filter plate 15, and the second conveying device 3 is used for conveying the cleaned bearing.

As shown in fig. 7, the first conveying device 2 includes a third supporting plate 201 and a motor 209, a set of third fixing plates 202 is fixed on a surface of the third supporting plate 201, a fourth fixing plate 203 is fixed on a surface of the third fixing plate 202, a fourth cylinder 204 is fixed on a surface of the fourth fixing plate 203, and a fourth supporting plate 206 is fixed on one end of a push rod of the fourth cylinder 204.

As shown in fig. 6 and 7, a second sliding slot 205 is formed on a surface of the third fixing plate 202, a second sliding block 208 is fixed on a surface of the fourth supporting plate 206, and the second sliding block 208 slides along an inner wall of the second sliding slot 205, so that the fourth supporting plate 206 can slide along the third fixing plate 202 under the pushing of the fourth cylinder 204.

As shown in fig. 6, a fifth fixing plate 207 is fixed between the two fourth supporting plates 206, one end of an output shaft of the motor 209 penetrates through one surface of one fourth supporting plate 206 and is fixed with a belt roller 210, the other end of the third supporting plate 201 is rotatably connected with one surface of the other fourth supporting plate 206 through a bearing, the other belt roller 210 is rotatably connected between the two fourth supporting plates 206 through a bearing, and a conveyor belt 211 is in transmission fit with the two belt rollers 210.

One specific application of this embodiment is: firstly, a group of fourth air cylinders 204 are started to push a group of fourth supporting plates 206 to slide along a second sliding groove 205 on a group of third fixing plates 202 through a group of second sliding blocks 208, so that one end of a conveyor belt 211 extends to the right above a second filter plate 15, then the conveyor belt 211 is used for conveying a bearing to be cleaned to a cleaning basket formed by a group of first filter plates 14 and second filter plates 15, then a group of second air cylinders 9 are started to push the bearing in the first filter plates 14 and the second filter plates 15 to move downwards, so that the bearing completely enters a first water tank 20, the bearing is rapidly cleaned by a group of ultrasonic generators 21 in the first water tank 20 and cleaning liquid in the first water tank 20, so that impurities in the bearing fall off and fall into the first water tank 20 along leakage holes on the second filter plates 15, after the cleaning is completed, a group of second air cylinders 9 are started to lift the bearing placed between the group of first filter plates 14 and the second filter plates 15 to be separated from the first water tank 20, then the first air cylinder 5 is started to make the second supporting plate 7 slide along the first slide groove 6 of the first supporting plate 1 through the first slide block 8, so that the bearings of the first filter plate 14 and the second filter plate 15 move to the right above the second water tank 22, then the second air cylinder 9 is used to control the bearings to enter the water in the second water tank 22 for secondary cleaning, and the first water pump 23 and the second water pump 24 in the second water tank 22 are respectively positioned on an opposite inner wall of the second water tank 22, so that the first water pump 23 and the second water pump 24 can drive the water in the second water tank 22 to circulate, so that the bearings of the first filter plate 14 and the second filter plate 15 can be cleaned effectively, the bearings after secondary cleaning are lifted out of the second water tank 22 by the second air cylinder 9 again, because the structural characteristics of the second conveying device 3 and the first conveying device 2 are the same, the conveyor belt 211 in the second conveyor 3 is also driven by the set of fourth cylinders 204 to move to a position directly under the first filter plates 14 and the second filter plates 15, and at this time, the third cylinder 18 is activated, so that the third cylinder 18 drives the set of first filter plates 14 and the second filter plates 15 to rotate, thereby slowly dumping the bearings between the set of first filter plates 14 and the set of second filter plates 15 onto the conveyor belt 211 in the second conveyor 3, and transporting the cleaned bearings to a designated position for subsequent processing.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims

1. An automatic bearing cleaning device, includes first backup pad (1), its characterized in that: also comprises a first conveying device (2), a second conveying device (3), a second fixing plate (11), a first water tank (20) and a second water tank (22), a first fixing plate (4) is fixed on one surface of the first supporting plate (1), a first cylinder (5) is fixed on one surface of the first fixing plate (4), a second supporting plate (7) is fixed at one end of a push rod of the first cylinder (5), a group of second cylinders (9) are fixed on one surface of the second supporting plate (7), one end of a push rod of the second cylinder (9) is fixed with a first fixing ring (10), a group of first baffles (12) and a group of second baffles (13) are sequentially fixed on one surface of the second fixing plate (11) from left to right, the two first baffles (12) are in rotating fit with the inner wall of one first fixing ring (10) through rotating shafts, and the two second baffles (13) are in rotating fit with the inner wall of the other first fixing ring (10) through bearings;

one opposite side surface of the second fixing plate (11) is rotatably connected with first filter plates (14) through bearings, a second filter plate (15) is fixed between the two first filter plates (14), one surface of the second filter plate (15) is fixed with a group of third baffle plates (16), a second fixing ring (17) is rotatably connected between the first baffle plate (12) and the second baffle plate (13) through a rotating shaft, the peripheral side surface of the second fixing ring (17) is fixed with a third air cylinder (18), one end of a push rod of the third air cylinder (18) is fixed with a third fixing ring (19), and the two third baffle plates (16) are rotatably matched with the inner wall of the third fixing ring (19) through rotating shafts;

first water tank (20) a relative inner wall all is fixed with supersonic generator (21), a relative inner wall of second water tank (22) is fixed with first water pump (23) and second water pump (24) respectively, a surface of first water tank (20) and a surface of second water tank (22) all run through and are fixed with inlet tube (25) and drain pipe (26), all be equipped with valve (27) on inlet tube (25) and drain pipe (26).

2. An automatic bearing cleaning device according to claim 1, characterized in that a set of first sliding grooves (6) is formed on one surface of the first supporting plate (1), a set of first sliding blocks (8) is fixed on one surface of the second supporting plate (7), the first sliding blocks (8) slide along the inner wall of the first sliding grooves (6), and the cross section of the first sliding grooves (6) and the cross section of the first sliding blocks (8) are both T-shaped structures.

3. An automatic bearing cleaning device according to claim 1, characterized in that the second fixing plate (11) is of right trapezoid cross-section and the second filter plate (15) is of arc cross-section.

4. An automatic bearing cleaning device according to claim 1, characterized in that the first conveyor (2) and the second conveyor (3) have the same constructional features, the first conveyor (2) and the second conveyor (3) being located on either side of the first filter plate (14).

5. The automatic bearing cleaning device according to claim 1, wherein the first conveying device (2) comprises a third supporting plate (201) and a motor (209), a group of third fixing plates (202) is fixed on one surface of the third supporting plate (201), a fourth fixing plate (203) is fixed on one surface of the third fixing plate (202), a fourth air cylinder (204) is fixed on one surface of the fourth fixing plate (203), and a fourth supporting plate (206) is fixed at one end of a push rod of the fourth air cylinder (204).

6. An automatic bearing cleaning device according to claim 5, characterized in that a second sliding groove (205) is formed on a surface of the third fixing plate (202), a second sliding block (208) is fixed on a surface of the fourth supporting plate (206), and the second sliding block (208) slides along an inner wall of the second sliding groove (205).

7. The automatic bearing cleaning device according to claim 5, characterized in that a fifth fixing plate (207) is fixed between the two fourth supporting plates (206), one end of the output shaft of the motor (209) penetrates through one surface of one fourth supporting plate (206) and is fixed with a belt roller (210), the other end of the third supporting plate (201) is rotatably connected with one surface of the other fourth supporting plate (206) through a bearing, the other belt roller (210) is rotatably connected between the two fourth supporting plates (206) through a bearing, and a conveying belt (211) is in transmission fit with the two belt rollers (210).